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10-1. Tangents to Circles. Warm Up. Lesson Presentation. Lesson Quiz. Holt Geometry. 10.1 Tangents to Circles. Warm Up Write the equation of each item. 1. FG. x = –2. 2. EH. y = 3. 3. 2(25 – x ) = x + 2. 4. 3 x + 8 = 4 x. x = 16. x = 8. 10.1 Tangents to Circles.

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10-1

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  1. 10-1 Tangents to Circles Warm Up Lesson Presentation Lesson Quiz Holt Geometry

  2. 10.1 Tangents to Circles Warm Up Write the equation of each item. 1.FG x = –2 2.EH y = 3 3.2(25 –x) = x + 2 4. 3x + 8 = 4x x = 16 x = 8

  3. 10.1 Tangents to Circles Objectives Identify tangents, secants, and chords. Use properties of tangents to solve problems.

  4. 10.1 Tangents to Circles Vocabulary interior of a circle concentric circles exterior of a circle tangent circles chord common tangent secant tangent of a circle point of tangency congruent circles

  5. 10.1 Tangents to Circles This photograph was taken 216 miles above Earth. From this altitude, it is easy to see the curvature of the horizon. Facts about circles can help us understand details about Earth. Recall that a circle is the set of all points in a plane that are equidistant from a given point, called the center of the circle. A circle with center C is called circle C, or C.

  6. 10.1 Tangents to Circles The interior of a circleis the set of all points inside the circle. The exterior of a circleis the set of all points outside the circle.

  7. 10.1 Tangents to Circles

  8. 10.1 Tangents to Circles JM and KM JM LK, LJ, and LM KM Example 1: Identifying Lines and Segments That Intersect Circles Identify each line or segment that intersects L. chords: secant: tangent: diameter: radii: m

  9. 10.1 Tangents to Circles QR and ST ST PQ, PT, and PS ST UV Check It Out! Example 1 Identify each line or segment that intersects P. chords: secant: tangent: diameter: radii:

  10. 10.1 Tangents to Circles

  11. 10.1 Tangents to Circles Example 2: Identifying Tangents of Circles Find the length of each radius. Identify the point of tangency and write the equation of the tangent line at this point. radius of R: 2 Center is (–2, –2). Point on  is (–2,0). Distance between the 2 points is 2. radius of S: 1.5 Center is (–2, 1.5). Point on  is (–2,0). Distance between the 2 points is 1.5.

  12. 10.1 Tangents to Circles Example 2 Continued Find the length of each radius. Identify the point of tangency and write the equation of the tangent line at this point. point of tangency: (–2, 0) Point where the s and tangent line intersect equation of tangent line: y = 0 Horizontal line through (–2,0)

  13. 10.1 Tangents to Circles Check It Out! Example 2 Find the length of each radius. Identify the point of tangency and write the equation of the tangent line at this point. radius of C: 1 Center is (2, –2). Point on  is (2, –1). Distance between the 2 points is 1. radius of D: 3 Center is (2, 2). Point on  is (2, –1). Distance between the 2 points is 3.

  14. 10.1 Tangents to Circles Check It Out! Example 2 Continued Find the length of each radius. Identify the point of tangency and write the equation of the tangent line at this point. Pt. of tangency: (2, –1) Point where the s and tangent line intersect eqn. of tangent line: y = –1 Horizontal line through (2,-1)

  15. 10.1 Tangents to Circles A common tangent is a line that is tangent to two circles.

  16. 10.1 Tangents to Circles A common tangent is a line that is tangent to two circles.

  17. 10.1 Tangents to Circles

  18. 10.1 Tangents to Circles 1 Understand the Problem Example 3: Problem Solving Application Early in its flight, the Apollo 11 spacecraft orbited Earth at an altitude of 120 miles. What was the distance from the spacecraft to Earth’s horizon rounded to the nearest mile? The answer will be the length of an imaginary segment from the spacecraft to Earth’s horizon.

  19. 10.1 Tangents to Circles Make a Plan Draw a sketch. Let C be the center of Earth, E be the spacecraft, and H be a point on the horizon. You need to find the length of EH, which is tangent to C at H. By Theorem 11-1-1, EH CH. So ∆CHE is a right triangle. 2

  20. 10.1 Tangents to Circles 3 Solve EC = CD + ED Seg. Add. Post. Substitute 4000 for CD and 120 for ED. = 4000 + 120 = 4120 mi Pyth. Thm. EC2 = EH² + CH2 Substitute the given values. 41202 = EH2+ 40002 Subtract 40002 from both sides. 974,400 = EH2 Take the square root of both sides. 987 mi  EH

  21. 10.1 Tangents to Circles 4 Look Back The problem asks for the distance to the nearest mile. Check if your answer is reasonable by using the Pythagorean Theorem. Is 9872 + 40002 41202? Yes, 16,974,169  16,974,400.

  22. 10.1 Tangents to Circles 1 Understand the Problem Check It Out! Example 3 Kilimanjaro, the tallest mountain in Africa, is 19,340 ft tall. What is the distance from the summit of Kilimanjaro to the horizon to the nearest mile? The answer will be the length of an imaginary segment from the summit of Kilimanjaro to the Earth’s horizon.

  23. 10.1 Tangents to Circles Make a Plan Draw a sketch. Let C be the center of Earth, E be the summit of Kilimanjaro, and H be a point on the horizon. You need to find the length of EH, which is tangent to C at H. By Theorem 11-1-1, EH CH. So ∆CHE is a right triangle. 2

  24. 10.1 Tangents to Circles 3 Solve Given ED = 19,340 Change ft to mi. EC = CD + ED Seg. Add. Post. = 4000 + 3.66 = 4003.66mi Substitute 4000 for CD and 3.66 for ED. EC2 = EH2 + CH2 Pyth. Thm. Substitute the given values. 4003.662 = EH2+ 40002 Subtract 40002 from both sides. 29,293 = EH2 Take the square root of both sides. 171  EH

  25. 10.1 Tangents to Circles 4 Look Back The problem asks for the distance from the summit of Kilimanjaro to the horizon to the nearest mile. Check if your answer is reasonable by using the Pythagorean Theorem. Is 1712 + 40002 40042? Yes, 16,029,241  16,032,016.

  26. 10.1 Tangents to Circles

  27. 10.1 Tangents to Circles HK and HG are tangent to F. Find HG. Example 4: Using Properties of Tangents 2 segments tangent to from same ext. point segments . HK = HG 5a – 32 = 4 + 2a Substitute 5a – 32 for HK and 4 + 2a for HG. 3a –32 = 4 Subtract 2a from both sides. 3a = 36 Add 32 to both sides. a = 12 Divide both sides by 3. HG = 4 + 2(12) Substitute 12 for a. = 28 Simplify.

  28. 10.1 Tangents to Circles RS and RT are tangent to Q. Find RS. Substitute for RS and x – 6.3 for RT. x 4 Check It Out! Example 4a 2 segments tangent to from same ext. point segments . RS = RT x = 4x – 25.2 Multiply both sides by 4. –3x = –25.2 Subtract 4x from both sides. x = 8.4 Divide both sides by –3. Substitute 8.4 for x. = 2.1 Simplify.

  29. 10.1 Tangents to Circles RS and RT are tangent to Q. Find RS. Check It Out! Example 4b 2 segments tangent to from same ext. point segments . RS = RT Substitute n + 3 for RS and 2n – 1 for RT. n + 3 = 2n –1 4 = n Simplify. RS = 4 + 3 Substitute 4 for n. = 7 Simplify.

  30. 10.1 Tangents to Circles chords VT and WR secant: VT tangent: s diam.: WR radii: QW and QR Lesson Quiz: Part I 1. Identify each line or segment that intersects Q.

  31. 10.1 Tangents to Circles Lesson Quiz: Part II 2. Find the length of each radius. Identify the point of tangency and write the equation of the tangent line at this point. radius of C: 3 radius of D: 2 pt. of tangency: (3, 2) eqn. of tangent line: x = 3

  32. 10.1 Tangents to Circles 4. FE and FG are tangent to F. Find FG. Lesson Quiz: Part III 3. Mount Mitchell peaks at 6,684 feet. What is the distance from this peak to the horizon, rounded to the nearest mile?  101 mi 90

  33. 10.1 Tangents to Circles VIDEO http://www.khanacademy.org/math/geometry/circles/v/parts-of-a-circle http://www.khanacademy.org/math/geometry/circles/v/language-and-notation-of-the-circle

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